Conveners
Plenary: I
- Chao-Hsi Chang
Plenary: II
- Chun Liu (Institute of Theoretical Physics, Chinese Academy of Sciences)
Plenary: III
- Chao-Shang Huang
Plenary: IV
- Lorenzo Calibbi (Nankai University)
Plenary: V
- Qing Wang (Tsinghua University)
Plenary: VI
- Jin-Min Yang (ITP, CAS)
Plenary: VII
- Jinmian Li (Sichuan University)
Plenary: VIII
- Yu-Qi Chen (Institute of Theoretical Physics)
Plenary: IX
- Jiang-Hao Yu (Institute of Theoretical Physics, Chinese Academy of Sciences, Beijing)
Plenary: X
- Tao Han (University of Pittsburgh)
Plenary: XI
- Cong-Feng Qiao
In this talk I will discuss the case of a light LSP (lighter than half the Higgs mass) in pMSSM, NMSSM as well as both these models extended with a right handed sneutrino. In addition I will point out some new strategies for heavy higgs searches in electroweakino final states as well as remind us of the importance of the precision calculations in the Higgs sector for the phenomenology.
I shall review the motivations for grand unification and summarize recent progress in this field.
In this talk, I will report the recent progresses on the foundation of unification theory and the projects on the space-based gravitation wave detections. I shall briefly outline that the foundation of the hyperunified field theory based on the maximum coherence motion principle and maximum entangled-qubits motion principle as well as gauge and scaling invariance principle enables us to make...
Since the Higgs boson discovery in 2021, a continuous effort has been made to study several of its properties like the coupling strengths, spin and charge-parity quantum numbers. The Higgs boson is not only a key ingredient of the Standard Model of particle physics to understand the mechanism which gives mass to other particles, but also to open new frontiers beyond the Standard Model.
The...
The DArk Matter Particle Explorer (DAMPE) is a satellite-borne, calorimetric type, high-energy-resolution space cosmic ray and gamma-ray detector. It was launched in December 2015 and has been stably operating for more than five years. Its three major scientific objectives are dark matter indirect detection, cosmic ray physics and gamma-ray astronomy. Precise measurements of the all-electron,...
PandaX experiment uses xenon as target to detect weak and rare physics signals, including dark matter and neutrinos. PandaX-II, 580kg liquid xenon completed successfully in 2019, and we are running a next generation experiment PandaX-4T with 4-ton xenon in the sensitive volume. In this talk, I will give an overview of the PandaX-4T experiment and commissioning. From 0.63 ton-year exposure data...
In this talk I will review some essential facts about the known landscape of string vacua and its potential implications for particle physics and cosmology. A central focus will be on string remnants, which are new particles that are apparently accidental consequences of the ultraviolet theory, not necessarily motivated by specific shortcoming of the standard models of particle physics or...
I give an update on GAMBIT, the Global And Modular Beyond-the-Standard-Models Inference Tool. After briefly motivating global fitting, I highlight why GAMBIT is a promising framework to help us identifying the new physics model beyond the standard models (BSM) of particle physics and cosmology. Focusing on the physics content, I give a non-technical introduction of the schematic structure...
String theory seems to offer an enormous number of possibilities for low energy physics. The huge set of solutions is often known as the String Theory Landscape. In recent years, there has been increasing evidence that not all quantum field theories can be consistently coupled to gravity. Theories that cannot be ultraviolet completed in quantum gravity are said to be in the Swampland. In this...
In the past few years, the study of amplitudes have made inroads in connecting with classical dynamics of binary blackholes as well as the revival of the S-matrix bootstrap. We will give a brief overview of the major results on these two fronts and the new light they shed on supersymmetric theories.